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davesplays
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What would prevent this from being feasible 910nm-382nm-=528nm?
Redbelly98 said:Other wavelengths are produced by taking the sum or difference of the frequencies, or of 1/λ.
So using 910 nm and 382 nm:
1/382 - 1/910 = 0.001519
and
1/0.001519 = 658
So this would produce light at 658 nm. However, there must also be a nonlinear crystal that would work at these wavelengths, and I am not sure if that is the case.
Yes, this equation can be solved using traditional mathematical methods such as algebraic manipulation and substitution.
The numbers represent wavelengths of light in the visible spectrum. 910nm is in the near infrared range, 382nm is in the ultraviolet range, and 528nm is in the green range.
This equation can be applied in various fields such as optics, physics, and engineering. It can be used to calculate the difference in wavelengths of light and their corresponding colors.
The main limitation is the assumption that the equation is linear and does not take into account factors such as refraction or dispersion of light. Additionally, the equation may not be applicable to non-visible wavelengths or in non-optical scenarios.
This equation can be tested by conducting experiments in a controlled environment, using equipment such as spectrometers to measure the wavelengths of light. The results can then be compared to the calculated solution of the equation.